メインナビゲーションにスキップ
検索にスキップ
メインコンテンツにスキップ
富山大学 ホーム
日本語
English
ホーム
プロファイル
研究部門
プロジェクト
研究成果
データセット
受賞
活動
コース
専門知識、名前、または所属機関で検索
研究推進機構水素同位体科学研究センター
富山大学
理学系
概要
フィンガープリント
ネットワーク
プロファイル
(5)
プロジェクト
(20)
研究成果
(364)
フィンガープリント
研究推進機構水素同位体科学研究センターが活動している研究トピックを掘り下げます。これらのトピックラベルは、この組織のメンバーの研究成果に基づきます。これらがまとまってユニークなフィンガープリントを構成します。
並べ替え順
重み付け
アルファベット順
Keyphrases
Tritium
81%
Tungsten
79%
Deuterium
54%
Deuterium Retention
36%
Hydrogen Isotopes
32%
Neutron-irradiated
23%
D Retention
23%
ITER-like Wall
18%
High Temperature
17%
Helium
16%
Room Temperature
16%
Tritiated Water
15%
Tritium Retention
14%
Thermal Desorption Spectroscopy
14%
Photocatalytic Activity
14%
Low Energy
13%
D Plasma
13%
Plasma Exposure
13%
Hydrogen Isotope Retention
13%
Rutile
12%
Irradiation
12%
Surface Modification
12%
Retention Behavior
12%
High Heat Flux
12%
Polygonal Barrel-sputtering Method
11%
Neutron Irradiation
11%
Annealing
11%
Water Splitting
11%
Imaging Plate
10%
Japan
10%
Temperature Effect
10%
Deuterium Plasma
10%
Sputtering System
9%
Neutron
9%
Desorption
9%
Photoelectrochemical Water Splitting
9%
Surface Morphology
9%
Elevated Temperature
9%
Divertor Tiles
8%
Divertor
8%
Depth Profile
8%
Liquid Scintillation Counter
8%
Hydrides
8%
Plasma-facing Components
8%
Sputtering Method
8%
Tritium Distribution
8%
Hydrogen Absorption
8%
Hydrogen Production
8%
Hydrogen Permeation
8%
Reduced Activation Steel
8%
Fusion Reactor
8%
Radiation Effects
7%
Permeation Rate
7%
V-4Cr-4Ti Alloy
7%
Oxide Film
7%
Diffusion Coefficient
7%
Fe Ions
7%
Magnetic Susceptibility
7%
Vacancy Clusters
7%
Deposition Layer
7%
Displacement Damage
7%
Low Temperature
7%
Photocatalyst
6%
Magnetic Properties
6%
Surface Coating
6%
MgNi
6%
Heat Treatment
6%
FLiBe
6%
Radiation Defects
6%
Damage Level
6%
Tritium Removal
6%
Trap Site
6%
Joint European Torus
6%
Displacement per Atom
6%
Electrochemical Properties
6%
Activation Energy
6%
Large Helical Device
6%
Hydrogen Atom
6%
Impurities
6%
Exposure Temperature
6%
Beryllium
6%
Oxygen Concentration
6%
KTaO3
6%
Tokamak
5%
Protium
5%
Vanadium
5%
F82H
5%
Temperature Range
5%
Beta Rays
5%
Hydrogen Uptake
5%
Oxide Layer
5%
Pd Coating
5%
Hydrogen Plasma
5%
Permeation Behavior
5%
CO2 Methanation Catalyst
5%
Tritium Permeation
5%
Zircaloy-2
5%
Radiation Damage
5%
Heavy Ions
5%
Photoluminescence
5%
Material Science
Tritium
100%
Tungsten
80%
Deuterium
73%
Surface (Surface Science)
69%
Desorption
36%
Oxide Compound
21%
Oxidation Reaction
18%
Film
16%
Titanium Dioxide
16%
Diffusivity
14%
Carbon Dioxide
14%
Density
13%
Neutron Irradiation
13%
Nanoparticle
13%
X-Ray Diffraction
12%
Water Splitting
12%
Surface Treatment
11%
Phase Composition
10%
Hydride
9%
Iron Ion
8%
Zircaloy
8%
Scanning Electron Microscopy
8%
Electrochemical Property
7%
Nanosheet
7%
Surface Morphology
7%
Magnetic Susceptibility
7%
Lithium
7%
Ion Bombardment
7%
Photocatalysts
7%
Heat Treatment
7%
Permeation Rate
7%
Oxide Film
7%
Annealing
7%
Ferritic/Martensitic Steel
6%
Beryllium
6%
Anode
6%
Vanadium
6%
Stainless Steel
6%
Thin Films
6%
Cathode
5%
Magnetic Property
5%
Activation Energy
5%
Electrocatalysts
5%
Zirconia
5%
Surface Coating
5%
Aluminum
5%
Alloying
5%
Al2O3
5%
Water Vapor
5%
Single Crystal
5%
Nitride Compound
5%
Engineering
Tritium
52%
Hydrogen Isotopes
30%
Energy Engineering
16%
Room Temperature
15%
Low-Temperature
9%
Nanoparticle
8%
Elevated Temperature
8%
Diffusion Coefficient
8%
Methanation
8%
Mols
8%
Japan
8%
Tokamak Device
7%
Surface Morphology
7%
Temperature Dependence
7%
Temperature Range
7%
Dislocation Loop
6%
Depth Profile
6%
Experimental Result
6%
Surface Coating
6%
Nuclear Reactor
6%
Ferritic/Martensitic Steel
6%
Hydrogen Absorption
5%
Thin Films
5%
Hydrogen Gas
5%
Activation Energy
5%
Oxide Film
5%
Atomic Hydrogen
5%
Applicability
5%
Polycrystalline
5%
Oxygen Concentration
5%
Joints (Structural Components)
5%